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Field
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unknown. You will carry out in-situ cooling/deformation experiments of as-manufactured and irradiated steel specimens using High-Energy Synchrotron X-ray Diffraction (HE-SXRD) in transmission mode
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of immunity to environmental influences. Conventional experimental techniques such as dilatometry, optical and electron microscopy, electron backscatter diffraction and x-ray diffraction with Rietveld
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experience in a diverse range of areas including: materials chemistry, nanoporous materials, materials’ synthesis, ex-situ and in-situ atomic force microscopy, powder and single crystal X-ray diffraction
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paramagnetic resonance (EPR), or magnetic resonance imaging (MRI) Familiarity with analytical tools: X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray computed tomography (XRCT) Expertise in
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participate at all the experimental steps required for obtaining giant optical nonlinearities. This procedure includes thin film deposition, annealing, X-Ray Diffraction studies (XRD), Scanning Electron
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to large-scale facilities for neutron and X-ray diffraction. This range of experience will give you flexibility and independence in a future research career, whether within the academic system or outside
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in any of the following methods will be advantageous: Single-crystal crystallography, Powder X-ray diffraction, NMR, UV-vis, IR and Luminescence spectroscopy, electrochemistry. The candidate will hold
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such as X-ray diffraction (XRD) to characterize, at the molecular level, smectite samples from various Swedish mineral deposits. The PhD student will develop, apply, and combine theoretical molecular
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. The PhD student will develop, apply, and combine theoretical molecular dynamics (MD) simulations with experimental techniques such as X-ray diffraction (XRD) to characterize, at the molecular level
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superalloys. This will involve detailed characterisation using scanning and transmission electron microscopy, X-ray diffraction, and mechanical testing. Thermodynamic and kinetic modelling will also be